Hassan Ali M.Phil (Physics)
Space Physics Practice Questions
Cambridge O Level
Physics 5054
To accompany the revised syllabus for examination from 2023.
Version 1
O/A Level Physics
Hassan Ali M.Phil (Physics)
O/A Level Physics
Contents
Introduction ....................................................................................................................................4
Space physics questions and mark schemes .......................................................................... 5
Paper 1 example questions
5
Paper 1 example questions mark scheme
8
Paper 2 example questions
9
Paper 2 example questions mark scheme
17
Hassan Ali M.Phil (Physics)
O/A Level Physics
5
Paper 1 example questions
1
2
Which row in the table correctly lists a galaxy, a planet and a star?
galaxy
planet
star
A
Milky Way
Mars
Moon
B
Milky Way
Earth
Sun
C
Solar System
Mars
Sun
D
Solar System
Earth
Moon
The orbit around the Sun of a comet is not circular. The distance between the Sun and the comet
varies, as shown in the diagram.
Q
Sun
P
R
orbit of comet
Where, in the orbit, is the speed of the comet the greatest and where is it the smallest?
speed greatest at
speed smallest at
A
P
R
B
P and R
Q
C
Q
P and R
D
R
P
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3
The orbit around the Sun of a particular asteroid (dwarf planet) is not circular. The distance
between the Sun and the asteroid varies, as shown in the diagram.
The asteroid possesses both gravitational potential energy (GPE) and kinetic energy (KE).
Y
Sun
X
Z
orbit of asteroid
Which energy transfer takes place as the asteroid moves from X to Y and as it moves from Y to Z?
4
moving from X to Y
moving from Y to Z
A
GPE to KE
GPE to KE
B
GPE to KE
KE to GPE
C
KE to GPE
GPE to KE
D
KE to GPE
KE to GPE
Ceres and Vesta are two asteroids (dwarf planets) that orbit the Sun. The orbits of Ceres and
Vesta are approximately circular.
The Sun’s gravitational field at the orbit of Ceres is weaker than that at the orbit of Vesta.
How does the orbital speed of Ceres and its orbital period compare with the orbital speed and
orbital period of Vesta?
orbital speed of Ceres
orbital period of Ceres
A
smaller than that of Vesta
smaller than that of Vesta
B
smaller than that of Vesta
greater than that of Vesta
C
greater than that of Vesta
smaller than that of Vesta
D
greater than that of Vesta
greater than that of Vesta
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5054/01/PQ/23
Hassan Ali M.Phil (Physics)
O/A Level Physics
7
5
The Sun emits energy in the form of electromagnetic radiation.
Which three components of the electromagnetic spectrum account for almost all of this energy?
6
7
A
infrared, microwave and ultraviolet
B
infrared, microwave and visible light
C
infrared, ultraviolet and visible light
D
microwave, ultraviolet and visible light
When, in the life cycle of a star, are heavy elements produced?
A
when a cloud containing hydrogen collapses
B
when a protostar becomes stable
C
when a red supergiant explodes
D
when a white dwarf is formed
The statements J, K, L and M describe different stages in the life cycle of a small star.
J
K
L
M
A cloud containing hydrogen collapses due to gravitational attraction.
A red giant is produced.
A white dwarf is produced.
Hydrogen undergoes nuclear fusion to produce helium.
What is the order (first to last) in which the stages occur?
8
A
J, M, K, L
B
J, M, L, K
C
M, J, K, L
D
M, J, L, K
What provides evidence for the Big Bang Theory?
A
the expulsion of heavy elements into space during a supernova explosion
B
the increase in the observed wavelength of radiation emitted by distant galaxies
C
the nuclear fusion reaction that takes place at the centre of stable stars
D
the smaller orbital speeds of the planets that are further from the Sun
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5054/01
Cambridge O Level – Mark Scheme
PRACTICE
O/A Level Physics
For examination
from 2023
Paper 1 example questions mark scheme
Question
Answer
Marks
1
B
1
2
D
1
3
A
1
4
B
1
5
C
1
6
C
1
7
A
1
8
B
1
Hassan Ali M.Phil (Physics)
O/A Level Physics
9
Paper 2 example questions
1
The Solar System contains the Sun, planets, moons, asteroids and comets.
(a) State the name of the planet closest to the Sun.
............................................................................................................................................... [1]
(b) Describe the difference between a planet and a moon.
....................................................................................................................................................
............................................................................................................................................... [2]
(c) State two differences between an asteroid and a comet.
1 .................................................................................................................................................
....................................................................................................................................................
2 .................................................................................................................................................
............................................................................................................................................... [2]
(d) The planet closest to the Sun orbits the Sun in 88 days.
State two reasons why the Earth takes longer to orbit the Sun than this planet.
1 .................................................................................................................................................
2 .................................................................................................................................................
[2]
(e) (i)
State the time taken for light to travel from the Sun to the Earth.
....................................................................................................................................... [1]
(ii)
Using your answer to (e)(i), calculate the distance from the Sun to the Earth.
Show your working.
distance = ....................................................... m [2]
[Total: 10]
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Hassan Ali M.Phil (Physics)
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10
2
(a) A year, a month and a day can be defined in terms of the motions of the Earth, the Moon and
the Sun.
Using these motions, complete the following sentences.
(i)
A year is the time for
....................................................................................................................................... [1]
(ii)
A month is the time for
....................................................................................................................................... [1]
(iii)
A day is the time for
....................................................................................................................................... [1]
(b) Earth, Jupiter and Saturn are three planets in the Solar System.
Table 2.1 gives information about these planets.
Table 2.1
planet
orbital speed
km / h
time to orbit
Sun / years
Earth
1.1 × 105
1.0
Jupiter
4.7 × 10
4
12
Saturn
3.5 × 104
29
Using data from Table 2.1, calculate the average radius of Saturn’s orbit around the Sun.
Give your answer in km.
radius = ..................................................... km [3]
Hassan Ali M.Phil (Physics)
O/A Level Physics
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(c) Fig. 2.1 shows one alignment with the Sun of Earth, Jupiter and Saturn.
Sun
Earth
Jupiter
Saturn
direction
of orbit
NOT TO
SCALE
Fig. 2.1
(i)
In Fig. 2.1, the three planets and the Sun are in line.
29 years later, Saturn returns to the same position relative to the Sun, but Earth and
Jupiter are not in the same line.
Use data from Table 2.1 to explain why.
............................................................................................................................................
............................................................................................................................................
....................................................................................................................................... [2]
(ii)
Complete Fig. 2.2 to show the positions of the three planets exactly 6 years after the
diagram in Fig. 2.1.
Sun
Fig. 2.2
[3]
[Total: 11]
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12
3
Table 3.1 lists some of the planets in the Solar System and their average distances from the Sun.
Table 3.1
planet
average distance from the Sun / km
Mercury
5.8 × 107
1.1 × 108
Earth
1.5 × 108
2.3 × 108
Jupiter
7.8 × 108
(a) Complete Table 3.1 by writing in the names of the missing planets.
[2]
(b) As the planets move around the Sun, the distance between Earth and Jupiter changes.
Use Table 3.1 to calculate the smallest distance and the largest distance between Earth and
Jupiter.
smallest distance = ................................................................
largest distance = ................................................................
[2]
Hassan Ali M.Phil (Physics)
O/A Level Physics
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(c) A planet is in orbit around a distant star. As it passes in front of the star, it blocks some of the
light of the star from reaching Earth, reducing the brightness of the star as seen from Earth.
Fig. 3.1 shows the view, from Earth, as the planet passes in front of the star.
star
planet
direction of motion
Fig. 3.1
Fig. 3.2 shows an incomplete graph of how the brightness of the star varies with time, as
seen from Earth.
The planet is in front of the star from time t1 to time t2.
brightness of
star as seen
from Earth
0
0
t1
t2
time
Fig. 3.2
(i)
Complete Fig. 3.2 to show how the brightness of the star varies with time.
(ii)
Describe how the completed Fig. 3.2 should be changed to show a larger planet passing
at the same distance in front of the same star.
[2]
............................................................................................................................................
............................................................................................................................................
....................................................................................................................................... [2]
(iii)
Suggest how an astronomer uses the changes in the brightness of the star to measure
the orbital period of the planet round the star.
............................................................................................................................................
............................................................................................................................................
....................................................................................................................................... [1]
[Total: 9]
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Hassan Ali M.Phil (Physics)
O/A Level Physics
14
4
When astronomers look at distant galaxies, they find that the frequency of the light from the galaxy
is shifted towards the red end of the spectrum.
(a) (i)
Apart from visible light, state two types of electromagnetic wave that contain most of the
energy emitted by a stable star.
....................................................................................................................................... [1]
(ii)
Describe what is meant by the red end of the spectrum.
............................................................................................................................................
....................................................................................................................................... [1]
(b) The speed of recession of a galaxy is the speed at which the galaxy is moving away from
Earth.
Astronomers use redshift to measure the speed of recession.
Astronomers can also measure the distance d of the galaxy from Earth. Such large distances
are measured in light-years.
Astronomers can estimate the time T that the galaxy has been moving away from Earth using
the equation
T=
d
speed of recession
Table 4.1 shows their estimates for four different galaxies.
Table 4.1
d / light-years
speed of recession
km / s
T / billions of years
4.9 × 107
1100
13
8
2400
13
3.2 × 108
6700
14
3.9 × 108
9000
13
1.0 × 10
(i)
State what is meant by a galaxy.
............................................................................................................................................
....................................................................................................................................... [2]
Hassan Ali M.Phil (Physics)
O/A Level Physics
15
(ii)
(iii)
Show that 1.0 light-year is equal to 9.5 × 1015 m. [3]
Describe the relationship between the speed of recession of a galaxy and its distance
from Earth.
............................................................................................................................................
....................................................................................................................................... [1]
(iv)
Explain how the values of T provide evidence for the Big Bang Theory of the origin of the
Universe.
............................................................................................................................................
............................................................................................................................................
....................................................................................................................................... [2]
[Total: 10]
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Hassan Ali M.Phil (Physics)
O/A Level Physics
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5
(a) The Sun produces energy from nuclei of hydrogen. Hydrogen nuclei are positively charged.
(i)
Describe the process that produces this energy.
............................................................................................................................................
............................................................................................................................................
....................................................................................................................................... [2]
(ii)
Explain why this process needs a high temperature to occur.
............................................................................................................................................
............................................................................................................................................
....................................................................................................................................... [2]
(b) (i)
Some stars are initially much more massive than the Sun.
Describe the life cycle of such a star, after it has passed through the stage of being a
protostar.
............................................................................................................................................
............................................................................................................................................
............................................................................................................................................
............................................................................................................................................
............................................................................................................................................
............................................................................................................................................
....................................................................................................................................... [4]
(ii)
Although the early Universe contained only light elements such as hydrogen, it now
contains a number of very heavy elements.
State in which part of the life cycle of a star these very heavy elements are formed.
............................................................................................................................................
....................................................................................................................................... [1]
[Total: 9]
5054/02
Cambridge O Level – Mark Scheme
SPECIMEN
For examination
from 2023
Generic Marking Principles
These general marking principles must be applied by all examiners when marking candidate answers. They should be applied alongside the specific
content of the mark scheme or generic level descriptors for a question. Each question paper and mark scheme will also comply with these marking
principles.
GENERIC MARKING PRINCIPLE 1:
Marks must be awarded in line with:
•
•
•
the specific content of the mark scheme or the generic level descriptors for the question
the specific skills defined in the mark scheme or in the generic level descriptors for the question
the standard of response required by a candidate as exemplified by the standardisation scripts.
GENERIC MARKING PRINCIPLE 2:
Marks awarded are always whole marks (not half marks, or other fractions).
GENERIC MARKING PRINCIPLE 3:
Marks must be awarded positively:
•
•
•
•
•
marks are awarded for correct/valid answers, as defined in the mark scheme. However, credit is given for valid answers which go beyond the
scope of the syllabus and mark scheme, referring to your Team Leader as appropriate
marks are awarded when candidates clearly demonstrate what they know and can do
marks are not deducted for errors
marks are not deducted for omissions
answers should only be judged on the quality of spelling, punctuation and grammar when these features are specifically assessed by the
question as indicated by the mark scheme. The meaning, however, should be unambiguous.
GENERIC MARKING PRINCIPLE 4:
Rules must be applied consistently, e.g. in situations where candidates have not followed instructions or in the application of generic level
descriptors.
GENERIC MARKING PRINCIPLE 5:
Marks should be awarded using the full range of marks defined in the mark scheme for the question (however; the use of the full mark range may
be limited according to the quality of the candidate responses seen).
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5054/02
Cambridge O Level – Mark Scheme
PRACTICE
For examination
from 2023
GENERIC MARKING PRINCIPLE 6:
Marks awarded are based solely on the requirements as defined in the mark scheme. Marks should not be awarded with grade thresholds or grade
descriptors in mind.
Science-Specific Marking Principles
1Examiners should consider the context and scientific use of any keywords when awarding marks. Although keywords may be present, marks
should not be awarded if the keywords are used incorrectly.
2The examiner should not choose between contradictory statements given in the same question part, and credit should not be awarded for any
correct statement that is contradicted within the same question part. Wrong science that is irrelevant to the question should be ignored.
3Although spellings do not have to be correct, spellings of syllabus terms must allow for clear and unambiguous separation from other syllabus
terms with which they may be confused (e.g. ethane / ethene, glucagon / glycogen, refraction / reflection).
4The error carried forward (ecf) principle should be applied, where appropriate. If an incorrect answer is subsequently used in a scientifically
correct way, the candidate should be awarded these subsequent marking points. Further guidance will be included in the mark scheme where
necessary and any exceptions to this general principle will be noted.
5
‘List rule’ guidance
For questions that require n responses (e.g. State two reasons …):
•
•
•
•
•
The response should be read as continuous prose, even when numbered answer spaces are provided.
Any response marked ignore in the mark scheme should not count towards n.
Incorrect responses should not be awarded credit but will still count towards n.
Read the entire response to check for any responses that contradict those that would otherwise be credited. Credit should not be
awarded for any responses that are contradicted within the rest of the response. Where two responses contradict one another, this should
be treated as a single incorrect response.
Non-contradictory responses after the first n responses may be ignored even if they include incorrect science.
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6
Cambridge O Level – Mark Scheme
SPECIMEN
For examination
from 2023
Calculation specific guidance
Correct answers to calculations should be given full credit even if there is no working or incorrect working, unless the question states ‘show
your working’.
For questions in which the number of significant figures required is not stated, credit should be awarded for correct answers when rounded by
the examiner to the number of significant figures given in the mark scheme. This may not apply to measured values.
For answers given in standard form (e.g. a × 10n) in which the convention of restricting the value of the coefficient (a) to a value between 1 and
10 is not followed, credit may still be awarded if the answer can be converted to the answer given in the mark scheme.
Unless a separate mark is given for a unit, a missing or incorrect unit will normally mean that the final calculation mark is not awarded.
Exceptions to this general principle will be noted in the mark scheme.
7
Guidance for chemical equations
Multiples / fractions of coefficients used in chemical equations are acceptable unless stated otherwise in the mark scheme.
State symbols given in an equation should be ignored unless asked for in the question or stated otherwise in the mark scheme.
Mark categories
B marks
These are independent marks, which do not depend on other marks. For a B mark to be awarded, the point to which it refers must be
seen specifically in the candidate’s answer.
M marks
These are method marks upon which A marks later depend. For an M mark to be awarded, the point to which it refers must be seen
specifically in the candidate’s answer. If a candidate is not awarded an M mark, the later A mark cannot be awarded either.
C marks
These are compensatory marks which can be awarded even if the points to which they refer are not written down by the candidate,
providing subsequent working gives evidence that they must have known them. For example, if an equation carries a C mark and the
candidate does not write down the actual equation but does correct working which shows the candidate knew the equation, then the C
mark is awarded.
If a correct answer is given to a numerical question, all of the preceding C marks are awarded automatically. It is only necessary to
consider each of the C marks in turn when the numerical answer is not correct.
A marks
These are answer marks. They may depend on an M mark or allow a C mark to be awarded by implication.
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Cambridge O Level – Mark Scheme
PRACTICE
For examination
from 2023
Abbreviations and guidance
/
Alternative answers for the same marking point.
underline
Actual word underlined must be used by candidate (grammatical variants accepted).
(brackets)
The word or phrase in brackets is not required but sets the context.
AND / and
Statements on both sides of the AND are needed for that mark.
OR / or
Indicates alternative answers, any one of which is satisfactory for scoring the marks.
NOT / not
Indicates that an incorrect answer is not to be disregarded but cancels another otherwise correct alternative offered by the
candidate for this mark.
Accept / A
A less than ideal answer which should be marked correct.
Ignore / Ig
Indicates that something which is not correct or irrelevant is to be disregarded.
e.c.f.
‘error carried forward’
o.w.t.t.e.
‘or words to that effect’
s.f.
‘significant figures’ – answers are normally acceptable to any number of significant figures ⩾ 2. Any exceptions to this general
rule will be specified in the mark scheme.
Arithmetic errors
If the only error in arriving at a final answer is clearly an arithmetic one, all but the final A mark can be awarded. Regard a
power of ten error as an arithmetic error.
Transcription errors
If the only error in arriving at a final answer is because given or previously calculated data has clearly been misread but used
correctly, all but the final A mark can be awarded.
Fractions
Only accept these where specified in the mark scheme.
Crossed-out work
Work which has been crossed out and not replaced but can easily be read, should be marked as if it had not been crossed
out.
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5054/02
Cambridge O Level – Mark Scheme
SPECIMEN
For examination
from 2023
Paper 2 example questions mark scheme
Question
Answer
Marks
1(a)
Mercury
B1
1(b)
a moon orbits a planet
B1
a planet orbits a star / the Sun
B1
any two from:
comet comes from far away / outside the solar system / highly elliptical orbit / long period / contains ice /
has a tail (as it passes the Sun) / loses mass as it passes close to the Sun / comets come in smaller range of sizes /
many more asteroids than comets / asteroid made of rock / asteroid made of metals /
mostly found between Mars and Jupiter / formed close to the Sun / short period / more circular orbit
B2
1(c)
Candidates must give a valid comparison between a comet and an asteroid in each case, e.g. a comet has a tail but an
asteroid does not.
(Earth) moves slower
B1
circumference of orbit / distance travelled in orbit is larger
B1
1(e)(i)
(approximately) 500 s
Accept 8 minutes
B1
1(e)(ii)
(d =) speed × time or 3.0 × 108 (m / s) seen
B1
1.5 × 1011 (m)
A1
1(d)
Question
Answer
Marks
2(a)(i)
the Earth to travel round the Sun
B1
2(a)(ii)
the Moon to travel round the Earth
B1
2(a)(iii)
the Earth to rotate once (on its own axis) / the Earth to complete one rotation
B1
2(b)
(d =) vT in any form algebraic or numerical, e.g. (r =
vT
)
2r
C1
3.5 × 104 × 29 × 365 × 24
C1
1.4 × 109 (km)
A1
5054/02
Cambridge O Level – Mark Scheme
PRACTICE
Question
2(c)(i)
2(c)(ii)
Answer
3(b)
Marks
Saturn has rotated once and Earth 29 times
B1
Jupiter has rotated 2.4 times (in 29 years) / Jupiter is now less than halfway (round its orbit)
B1
Earth on line to right
B1
Jupiter on line to left
B1
Saturn about 75° clockwise, not quite on line downwards
B1
Question
3(a)
For examination
from 2023
Answer
Marks
Venus
B1
Mars
B1
smallest distance 6.3 × 108 km
B1
8
largest distance 9.3 × 10 km
B1
reduces at t1 and has a flat section somewhere between t1 and t2
B1
after t2 back to initial level and neither change at t1 or t2 is vertical
B1
lower brightness when light is blocked / flat section at a lower level
B1
time to reduce brightness and time to increase brightness is longer / flat section for a shorter time
B1
3(c)(iii)
from t1 to the next time when the brightness starts to reduce or from t2 to the next time when the brightness starts to increase
B1
Question
Answer
3(c)(i)
3(c)(ii)
Marks
4(a)(i)
infrared and ultraviolet
B1
4(a)(ii)
(end with) the longest wavelength or lowest frequency
B1
4(b)(i)
collection of stars
C1
billions of stars
A1
4(b)(ii)
8
use of 3.0 × 10 m / s
B1
365 (days in a year) and 24 (hours in a day) seen
B1
3.0 × 108 × 365 × 24 × 60 × 60 or 9.46 × 1015 seen
B1
5054/02
Cambridge O Level – Mark Scheme
SPECIMEN
Question
Answer
For examination
from 2023
Marks
4(b)(iii)
further from Earth the greater the speed of recession or speed of recession proportional to distance from Earth
B1
4(b)(iv)
values are (nearly) the same
B1
all galaxies (and Earth) were together (13–14 billion years ago)
B1
Question
5(a)(i)
5(a)(ii)
5(b)(i)
5(b)(ii)
Answer
Marks
(hydrogen) nuclei come together / fuse
B1
to form helium and release energy
B1
high speeds needed
B1
nuclei repel
B1
becomes a main sequence star / stable star
B1
expands to become a red supergiant
B1
becomes a supernova (and throws off outer layers)
B1
core becomes a neutron star or (if original mass large enough) core shrinks to become a black hole
B1
in a supernova
B1
Space Physics Important Facts
1. Lesser the orbital distance more is the orbital speed.
2. As satellite comes closer to the sun its kinetic energy increases and gravitational potential energy decreases.
3. Lesser the gravitational strength lesser will be the orbital speed.
4. Lesser the gravitational field strength lesser is the orbital speed and larger the time needed to complete one rotation.
5. Heavy elements are produced when ever a red super giant explodes. (super Nova)
6. Greater the orbital distance from earth, greater the speed of recession.
7. Galaxy is a system of billions of star, together with gas and dust, held by gravitational attraction. Our sun is a part of milky
way.
8. Sun emits energy in the form of electromagnetic radiation which mainly consists of infrared, ultraviolet and visible light.
9. The increase in the observed were length of light / radiation emitted by a distant galaxy provides the evidence of Big Bang
Theory which means universe is expanding.
10. The increase in the observed wave length of radiations emitted by a distant galaxy is called Red Shift.
11. Difference between planet and moon.
Moon orbit a planet while planet orbits a star / sun
12. Differences between Asteroid and comet.

Asteroid mostly present between Mars and Jupiter
comet comes from outside of solar system

Having short period
Having long period

Mostly move in circular orbit
Move highly elliptical path

Formed quite close to sun
Far away

Made up of rocks and metals
Contain ice and from tail when passing near sun
13.
Year is the time taken by earth to make a complete round about sun.
Month is the time taken by moon to make a complete round about earth.
Day is the time taken by earth to make a complete round about earth.
14. Life cycle of a small star
Cloud containing H2 collapse due to gravity
produced
H2 goes nuclear fusion to produce Helium
A white dwarf is produced.
15. Life cycle of a massive star, after the stage of protostar.
Stable star expands to become red super giant
Nutron star
core shrink to form black hole.
Become a super Nova
core become
A red giant is
Question 1: What is the meaning of astronomical unit (AU)?
Answer: The astronomical unit (AU) is a unit of distance used in
astronomy that represents the average distance between the Earth and
the Sun, which is approximately 149.6 million kilometers or 93 million
miles.
Question 2: What is a light year?
Answer: A light year is the distance that light travels in one year in a
vacuum, which is approximately 9.46 trillion kilometers or 5.88 trillion
miles. It is used as a unit of distance to describe the vast distances
between celestial objects in space.
Question 3: What is the purpose of a telescope in astronomy?
Answer: Telescopes are used in astronomy to collect and magnify light
from distant objects in space, allowing astronomers to observe and study
celestial bodies such as stars, planets, galaxies, and nebulae in detail.
Question 4: What is redshift in astronomy?
Answer: Redshift is a phenomenon in astronomy where light from a
celestial object, such as a star or galaxy, is shifted towards the longerwavelength end of the electromagnetic spectrum, making it appear more
red. Redshift is often used to determine the motion and distance of
objects in space, as it indicates that the object is moving away from the
observer.
Question 5: What is a comet?
Answer: A comet is a celestial object made up of ice, dust, and rocky
particles that orbits the Sun in a highly elliptical path. When a comet gets
close to the Sun, the heat causes the ices in the comet to vaporize,
creating a glowing coma or tail that can be visible from Earth.
Question 6: What is a geostationary satellite?
Answer: A geostationary satellite is a type of satellite that orbits the Earth
at the same rotational speed as the Earth, so it appears to be stationary
relative to a point on the Earth's surface. Geostationary satellites are
commonly used for communication, weather monitoring, and other
Hassan Ali M.Phil Physics
O/A Level Physics 0312-1472777
applications due to their ability to provide continuous coverage of a
specific area on the Earth's surface.
Question 7: What is gravitational force?
Answer: Gravitational force is the force of attraction between two objects
with mass. It is responsible for the motion of planets around the Sun, the
motion of moons around planets, and many other celestial phenomena.
Gravitational force is governed by Newton's law of universal gravitation,
which states that the force is directly proportional to the product of the
masses of the objects and inversely proportional to the square of the
distance between them.
Question 8: What is the purpose of a space probe?
Answer: A space probe is an unmanned spacecraft that is sent into space
to explore and gather information about celestial objects such as planets,
moons, and asteroids. Space probes are equipped with various
instruments and sensors to collect data, take measurements, and
transmit information back to Earth, allowing scientists to study and learn
more about the universe.
Question 9: What is the electromagnetic spectrum?
Answer: The electromagnetic spectrum is the range of all frequencies of
electromagnetic radiation, which includes visible light, radio waves,
microwaves, infrared radiation, ultraviolet radiation, X-rays, and gamma
rays. Different types of electromagnetic radiation have different
wavelengths and energies, and they are used in various ways in space
physics, such as for observing and studying celestial objects.
Question 10: What is a black hole?
Answer: A black hole is a region in space where the gravitational pull is
so strong that nothing, not even light, can escape from it. Black holes are
formed from the remnants of massive stars that have collapsed under
their own gravitational force, and they are characterized by their
extremely dense
1. What is the difference between a star and a planet? Answer: A star is a
celestial object that emits light and heat due to nuclear fusion in its core,
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O/A Level Physics 0312-1472777
2.
3.
4.
5.
6.
7.
8.
while a planet is a celestial body that orbits a star, is spherical in shape,
and does not emit its own light.
How do planets in our solar system stay in orbit around the Sun? Answer:
Planets in our solar system stay in orbit around the Sun due to the
gravitational force exerted by the Sun. The gravitational force pulls the
planets towards the Sun, while their forward motion keeps them in a
stable orbit.
What is the aurora borealis or aurora australis? Answer: The aurora
borealis, also known as the northern lights, or aurora australis, also
known as the southern lights, are natural light displays that occur in the
polar regions due to the interaction of charged particles from the Sun
with the Earth's magnetic field.
How does the Moon affect Earth's tides? Answer: The gravitational pull
of the Moon affects Earth's tides by causing a rise and fall in sea level.
This is due to the gravitational force of the Moon pulling on the water on
the side of the Earth facing the Moon, creating a high tide, and pulling
on the water on the opposite side of the Earth, creating a low tide.
What is a solar eclipse? Answer: A solar eclipse is a phenomenon that
occurs when the Moon passes between the Sun and the Earth, casting a
shadow on the Earth and blocking the Sun's light. There are different
types of solar eclipses, including total solar eclipses, partial solar eclipses,
and annular solar eclipses.
What is the Hubble Space Telescope? Answer: The Hubble Space
Telescope is a large telescope placed in orbit around Earth by NASA and
the European Space Agency (ESA). It has been used to observe and study
distant celestial objects, such as galaxies, stars, and nebulae, and has
provided valuable data and images that have greatly contributed to our
understanding of the universe.
What is a supernova? Answer: A supernova is a powerful and explosive
event that occurs when a massive star reaches the end of its life cycle
and undergoes a catastrophic collapse, resulting in a massive release of
energy and the ejection of outer layers into space. Supernovae are
among the most energetic events in the universe and can briefly
outshine entire galaxies.
What is dark matter? Answer: Dark matter is a hypothetical form of
matter that does not emit, absorb, or reflect any electromagnetic
radiation and thus cannot be detected directly. It is believed to make up
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O/A Level Physics 0312-1472777
a significant portion of the total mass in the universe and plays a key role
in the formation and evolution of galaxies.
9. What is a space shuttle? Answer: A space shuttle is a reusable spacecraft
designed for transportation of astronauts, satellites, and other payloads
into space and their safe return to Earth. The space shuttle program was
operated by NASA and consisted of several orbiters, including Atlantis,
Endeavour, and Discovery, which were used for various missions, such as
satellite deployment, space exploration, and space station assembly.
10.
What is the Big Bang Theory? Answer: The Big Bang Theory is a
scientific theory that suggests that the universe originated from a dense
and hot state approximately 13.8 billion years ago in a massive explosion
known as the Big Bang. It is the widely accepted explanation for the
origin and evolution of the universe and is supported by a large body of
observational evidence.
11.
How does gravity affect objects in space? Answer: Gravity affects
objects in space by pulling them towards massive objects, such as stars
or planets
1. What is the force that keeps planets in orbit around the Sun? A.
Electromagnetic force B. Gravitational force C. Nuclear force D. Magnetic
force Answer: B. Gravitational force
2. What is the phenomenon that causes the northern lights (aurora
borealis)? A. Solar eclipse B. Lunar eclipse C. Gravity D. Solar wind
Answer: D. Solar wind
3. What causes the tides on Earth? A. Earth's magnetic field B. Solar flares C.
Moon's gravitational pull D. Earth's rotation Answer: C. Moon's
gravitational pull
4. Which of the following is a result of nuclear fusion in stars? A. Solar
eclipses B. Auroras C. Planetary orbits D. Release of light and heat
Answer: D. Release of light and heat
5. What is the name of the telescope placed in orbit around Earth by NASA
and ESA for studying distant celestial objects? A. Hubble Space
Telescope B. Kepler Space Telescope C. James Webb Space Telescope D.
Chandra X-ray Observatory Answer: A. Hubble Space Telescope
6. Which type of eclipse occurs when the Moon passes between the Sun
and the Earth, blocking the Sun's light? A. Lunar eclipse B. Solar eclipse
C. Annular eclipse D. Total eclipse Answer: B. Solar eclipse
Hassan Ali M.Phil Physics
O/A Level Physics 0312-1472777
7. What is the hypothetical form of matter that does not emit, absorb, or
reflect any electromagnetic radiation? A. Dark matter B. Anti-matter C.
Plasma D. Neutrinos Answer: A. Dark matter
8. What is the process by which a massive star undergoes a catastrophic
collapse and releases a massive amount of energy? A. Solar flare B.
Supernova C. Comet D. Meteor Answer: B. Supernova
9. What is the name of the spacecraft designed for transportation of
astronauts and payloads into space and their safe return to Earth? A.
Space probe B. Space shuttle C. Rover D. Satellite Answer: B. Space
shuttle
10.
What is the widely accepted scientific theory that explains the
origin and evolution of the universe? A. Heliocentric model B. Geocentric
model C. Big Bang Theory D. Steady State Theory Answer: C. Big Bang
Theory
1. Which of the following planets is closest to the Sun? A. Venus B. Earth C.
Mars D. Jupiter
Answer: A. Venus
2. Question: What is the name given to the bright tail that appears when a
comet passes close to the Sun?
A. Stellar tail B. Comet tail C. Solar tail D. Ion tail
Answer: D. Ion tail
3. Question: Which of the following statements about the Moon is correct?
A. The Moon is a planet B. The Moon has its own light C. The Moon has
no gravity D. The Moon is a natural satellite of Earth
Answer: D. The Moon is a natural satellite of Earth
4. Question: What is the process called by which a star produces energy? A.
Nuclear fusion B. Nuclear fission C. Radioactive decay D. Combustion
Answer: A. Nuclear fusion
5. Question: What is the name given to the region around a planet where
its magnetic field influences charged particles? A. Magnetosphere B.
Atmosphere C. Thermosphere D. Stratosphere
Answer: A. Magnetosphere
6. Question: What is the name of the space probe that landed on Mars in
2004 to study its geology and climate? A. Opportunity B. Spirit C.
Curiosity D. Viking
Answer: A. Opportunity
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O/A Level Physics 0312-1472777
7. Question: Which of the following is the largest planet in our solar
system? A. Mars B. Saturn C. Jupiter D. Neptune
Answer: C. Jupiter
8. Question: What is the name of the process by which a planet or moon
loses its atmosphere due to low gravity and high temperatures? A. Solar
flares B. Solar wind C. Atmospheric erosion D. Atmospheric escape
Answer: D. Atmospheric escape
9. Question: What is the name of the region in space where a planet or
moon blocks the light from a star, causing a temporary reduction in
brightness? A. Solar eclipse B. Lunar eclipse C. Umbra D. Penumbra
Answer: A. Solar eclipse
10.
Question: Which of the following is the smallest planet in our solar
system? A. Mercury B. Venus C. Earth D. Mars
Answer: A. Mercury
Note: These questions and answers are based on past papers of IGCSE
Physics exams, and it's always recommended to refer to the latest
syllabus and past papers for accurate and up-to-date information.
Our Solar System consists of eight planets: Mercury, Venus, Earth, Mars,
Jupiter, Saturn, Uranus, and Neptune.
 Planets revolve around the Sun in elliptical orbits and are held in orbit by
the Sun's gravitational pull.
 Planets have their own unique characteristics such as size, composition,
and atmospheric conditions.
2. Moon and Tides:
 The Moon is the natural satellite of Earth and exerts gravitational force
on Earth.
 The gravitational pull of the Moon causes tides on Earth, creating a rise
and fall of sea levels.
 Tides have a significant impact on coastal ecosystems, navigation, and
human activities.
3. Comets, Meteors, and Asteroids:
 Comets are celestial bodies made of ice, rock, and dust that orbit the
Sun. When they approach the Sun, they develop a bright tail due to the
vaporization of ice.

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O/A Level Physics 0312-1472777
Meteors are small celestial bodies that enter the Earth's atmosphere and
burn up upon entry, creating a bright streak of light called a meteor or
shooting star.
 Asteroids are small rocky bodies that orbit the Sun, mainly found in the
asteroid belt between Mars and Jupiter.
4. Stars and Stellar Evolution:
 Stars are massive balls of hot gases that emit light and heat through
nuclear fusion.
 Stellar evolution is the process by which stars form, mature, and
eventually exhaust their fuel, leading to various stages such as red giants,
white dwarfs, supernovae, and black holes.
 Stars play a vital role in the Universe by producing energy, creating
heavy elements, and shaping the structure of galaxies.
5. Space Exploration:
 Space exploration involves the use of telescopes, space probes, and
manned missions to study celestial objects, including planets, stars,
galaxies, and beyond.
 Human space exploration has led to significant discoveries, including the
Moon landings, Mars rovers, and the International Space Station (ISS).
 Space exploration has also resulted in technological advancements and
improved our understanding of the Universe.
6. Other Celestial Objects and Phenomena:
 Other celestial objects and phenomena include nebulae, pulsars, quasars,
black holes, gamma-ray bursts, and dark matter.
 These objects and phenomena play a crucial role in the Universe and
have significant implications for our understanding of space physics.

Hassan Ali M.Phil Physics
O/A Level Physics 0312-1472777